Ore-treating furnace.



No.,689,946. Patented Dec. 3l, IQOI. A. ra. BEAM & H. s. BAILEY.

URE TREATING FURNACE.

(Application filed July 17, 1899.)

(No Model.) l5 Sheets-Sheet l.

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w Nm Patented Dec. 31.4901. A. M. BEAM & H. S. BAILEY.

URE TREATING FURNACE.

' :Appuvmion mea July 17, 1899.)

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(No Model.)

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E @FAQ Patented Dec. 3|, 190|. A. M. BEAM & H. S. BAILEY.-

ORE TREATING FURNACE. (Application led July 1T, 1899.)

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Nu. 689,946. Patented Dec. 3|, 190|. A. M. BEAM H. S. BAILEY. URE TREATING FURNACE.

(Application led July 17, 1899.) (No Windel.) l5 Sheets-Sheet 4.

\'r "E N @U Wwe/ooe@ l num/L holz; al, grave JW @fea/:AIL MM fmew, @Mom/wer /rwa//a/ yum 7MM No. 689,946. Patented nfsl, mol. A. AA. BEAM A-H. s. BAILEY.

URE TREATING FURNCE.

l (Applwntion filed July 1T, 1B99- (No Modal.) l5 Sheets-Sheet 5.

Mdm v Af) M/W K Patented Dec. 3l, IQOIV.

A. M. BEAM EL H. S. BAiLEY.

URE TREATING FUHNACE.

(Application filed July 17, 18139,;i

l5 Sheets-Sheet 6.

(No Model.)

f ...d f w Nu. 689,946 Patented Dec. 3|, IQOI.

M. BEAM L H. S. BAiLEY.

URE TREATING FURNACE.

(Application led July 17, 1890A I5 Si1ees-$he0t 7.

(No Model.)

y Patented Dec. 3L 190|. A. M, BEAM & H, s. BAILEY.

URE TREATING FURNACE.

Application flied July 1?, 1899.)

l5 Sheets-Shei 8.

(No Windel.)

:El lli] WW1/Lewes Wn. 589,9164 Patented Dec. 3|, |90I.

A. M. BEAM & H. S. BALEY. URE TREATING FURNAGE.I

(Application led July 17, 1899.) (No Fsfpdol.)

I5 Sheets-Sheet 9.

No. $89,946. Patented Dec. 3l,` i901.

' A. M. BEAM s. H. s. BAILEY.

URE TBEATING FURNAGE. (Application med my 17,1899.) (No Modul.) l5 Sheets-Sheet I0.

:Elfi E QL?- No. 639,946. APatented Dec. 3i, |901.

, A. M. BEAM & H.'S. BAILEY.

03E TBEATING FUBNACE.

` (Application med July 17, 1899.)

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(Application filed July 17, 1899.)

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No. 689,946. Patented Dec. 3|, |9l. A. M. BEAM @L H. S. BAILEY.

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(Application led July 17, 1899.)

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No. 689,946. Patented Dec. 3|, |901. A. M. BEAM H. S. BAILEY.

OBE TREATING FURNACE.

(Application led July 17` 1899.) (No Model.) 1 l5 Sheets-Sheet I4,

Patented Dec. 3|, IQOI A. M, BEAM L H, SLBAILEV. URE TREATING FURNACE.

[Application led July 17, 1899,)

(H0 Windel.)

I5 Sheets-Sheet I5.

@XX/lineages t) t.. tiene l taires .Familiar tir-ice.

AEON M. BEAM AND HOWARD S. BAILEY, OF DENVERCOLORADO..

SPECIFICATION forming partof Letters Patent 316,689,946, dated December 31, 1901. Application filed July 17| 1899. Serial No. 724,180. (No model.)

To @ZZ whom, it muy concern.-

Be it known that we, ARON M. BEAM and HOWARD S. BAILEY, citizens of the United States of America, residing at Denver, in the county of Arapahoe and State of Colorado,

have invented certain new and useful Improvements in Ore-Treating Furnaces; and we de declare the following to be a full7 clear, and exact description of theinvention, such as will enable others skilled in the art to which it appel-taies to make and use the same, reference heing had to the accompanying drawings, and to the characters of reference marked thereon, which form a part of this specifica- 15 tion.

Our invention relates to a furnace and apparatus co peratin g therewith for treating refractory and rebellious ores for their gold, silver, copper, lead, zinc, and other values.

.lo this end our invent-ion consists, first, in afurnace for converting and chaugingrelractory and rebellious ores of all characters io a condition in which the gold and silver values of the ore can he saved by amalgamation and the copper and base metals can be saved by leaching and also to a condition in which their values can be saved by leaching y and cyaniding or by leaching and chlorination and concentration; second, in a furnace thatwilldesulfurizeores withouthurning the sulfur, hut will desulfnrize them bycon-` verting them to a harmless condition; third, in a furnace that will practically desnlfurize ores without to any material extent volatiliz- 35 ing the sulfur or the sulfur elements, therehy preventing the loss by volatilization and dusting generally met with in desnlfurizingfurnaces that volatilize the sulfur and the lfu r elements, and, fourth, in a furnace that will save the chemical gold of telluride and other gold ores. We attain these'objects by the mechanism illustratedin the accompanying drawings, in which- Figure 1 is a central longitudinal sectional .i5 elevation of our converting-furnace., Fig. 2 ahorizontal sectional View on lineAOt' Fig. 1 loohingin the direction of the arrow. Fig. Il is a horizontal sectional view .of Fig. 1 on line il looking in the direction of the arrow. Fig. l is a front elevation of our convertingfurnace with the hood removed. Fig. 5 is a urnas-section on line Cof Fig. 1 and Fig.

4. This sectioncuts through the auxiliary fire-box and the vertical iiue. Fig. G is a cross-section on line E of Figs. 1 and 4. Fig. 7 is a cross-section on line D of Figs. 1 and 4. Fig. 8 is across-section on'line F of Figs. 1 and 4. This section cuts centrally through the main fire-box and chimney. l Fig. 9 is an end elevation of Fig. 4 and of rear end of the furnace, both ends being substantially alike, except that the feed end contains a feed-hopper and a discharge-chute. Fig. 10 is a 1ongitudinal vertical section of a modifation of the furnace shown in Fig. 1. Fig. 1l is a horizontal sectional viewof Fig. 10 on line G. Fig.

2 is a longitudinal vertical section of a modification of our'furnace. Fig. 13 is a cross-section 0n line Il of Fig. 12. Fig. 14 represents a cross-section of a third modification of our furnace. Fig. is a sectional elevation of a frag ment of one end of the furnace represented in Fig. 11. Fig. 16 designa-tes a sectional elevation of a modification of a furnace embodying ourinvention. Fig. 17 isa cros's-sectionof Fig. 16 on linel of Fig. 16. Fig. 1S isafragmentary View of a muiiie, showing one form of conveyer. Fig. 19 is a cross-section of an integrally-formed in u file, showing a swingingdoor hingedthereto on line P of Fig. 23. Fig. 2O is a fragmentary section of one of the independ ent roof-sections of the built-up inutile, showing a door hinged by a link thereto. Fig. 21 is a fragmentary section of a mufiie, showing a flexible ore-scraper. Fig. 22 is a side View of Fig` 21. Fig. 23 is a side view of Fig. 19 and shows the swinging door in dotted lines. Fig. 2i is a longitudinal vertical section ot' another modification of our invention. Fig. 25 is an enlarged side sectionalview of the air-door plates shown in Fig. 1. Fig. 26 is a cross-section of Fig. 25 on line J. Fig. 27 is yan end View of a fragment of the scraper.

Fig. 2S is a sectional perspective View of one of the swinging doors, showing the manner in which they are hinged 'by links to the roofsections. Fig. 29 is one end of the scraper with the beveled Wheel in section. Fig. 30 is a perspective view of the scraper with one wheel removedl Fig.'3l is an elevation of the inutile side doors and a fragment of the iron frame to which it is iitted. Fig. 32 is a fragmentary-view of the floor and one side of a muiilc resting on a fragment of their sup- IOC) porting wal1plate,vshowing passages for the gases and products of combustion under them.

shown in this View is adapted to-be constructed of llireclay slabs. Fig, 36. is a, view of the preferred Apower driving mechafngf ism. Fig. 37 is.an enlarged fragment of the beltshifter support and time-board.' Fig. 38 is a cross-section of Fig..36 on line L'. Fig. 39 is aside elevation of one of the-ore-scrapers of the ore-conveyer with attachment-links of-the link belts secured' to it. v Fig. 40 isa plan View of Fig. 39. Fig. 41-is an end ele'- vation of variable-speed driving mechanism shown-in Fig. 36. Fig. 42 is 'asectionaleleff vation of the general elements of a mill-essen tiallto the operation of'our furnace for convertinga gold and silver bearing ore to free'- {ni-lling ore andfor the recovery of the gold and silver valuesby amalgamation and leaching and concentration.

Similar characters of reference refer to similar parts throughout the several views. l

Referring to the drawings, the numerals 1l and 2 designatetwo muflles arranged in prefably a vertical plane and at a distance apart "sufficient to form a flue between them of suitable si'ze for the furnace. These muffles are supported and incased in brick'work,which comprises the side walls 3 and 4, the roof 5, floor 6, and the wall-footings 7. At or near the opposite ends of the furnace we construct two fire-boxes kor combustion-chambers 8 and 9, arranging them,as shown in Figs. 3 and 5, entirely outside-of the furnace, for, as shownin Fig. 14, directly under the lower, muffle. The fire-box 8 isthe main ireg-box; It isprefe'rably formed in the'base of thechininey 8A; which is carried far enough above the furnace to insure proper draft for the 'areaof gratesurface givenvthe furnace. Inthe chimney wearrange a damper 10, which we'seeure in any convenient manner on Aa `rod 11. 'The central portion of the rod is preferably'square;`

. and its loosely in a square aperture-,formed dia'metrically through the central portion yof the dampen, The opposite ends of the-pivoting rod extendl through tubes v12.- Theset'ubes vare built into the chimney. The ends ofthe pivotalr'od of the damper are provided with' washers 13 and 14 and pins 15 and 16, which are placed close to the washers. On the front side of the chimney a cross-bar 17 is secured vto the end ofthe rod, from the ends of which combustion-chamber 19, the grates 20, and the ash-pit 21,and the doors 22,y leading into the` The mnffle combustion-chamber, also the doors 22A, leading into the firebox and ash-pit. This main fire-box is preferablyarranged in the base of .the chimney. The chimney may be made independent andseparate of this lire-box, if desired, as such anarrangernent might-be found more 'convenientin" some plants, especially where several furnaces are usedv and it is desired to' erect 'one chimney'for them. The fire-box Slat theioppositeend of the furnace similar in constructionto the'xmain fire-box, except that J'its inclosing Wallsand roof are is an auxiliary fire-box and is preferably made smaller in area than the Amainfre-box. It isf purpose.. Where the fire-box and. grate'sare arranged directly'vunder `the lo`wer -in-Iuile, vas shown in` Fig. 14,fthisjauxiliary'fire-box is not used,.and' the chimney may consist of a stack 24, arranged 'at 'oneside of fthe'ffurnace arid connected with the il'ues SSAT-'andl into the opposite side walls. The side wallsv from the foundation upto these plates are preferably flush with the outside face of the wall above these plates, forming a shelf 'at the -top of the thicker' wall, over which these plates extend, The lower mufe rests'on the shelf formed by the thicker wall andthe plates/l The upper 4mui'le 1 is supported on plates 27, that are b uiltinto 'the walls.y These plates project into-the fluespace betweenr the muffies far enoughtofo'rm shelves for the floor 'of the muflle to rest on. The walls are corbeled out to supporta lug 28, which depends from the plates and'res'ts on the corbe'led-out portion ofthe walls'. The plates on which the munies rest extend all around the furnace, and the muiiles are confined betweenV an'upward-projecting lug 28A, cast, on the upper which 'completely separates the ore from the heat and'gas flowing from the fire-boxes under and around them tothe chimney, and they fare-both preferably constructedjof independ- :ent side, fioor, and 'roof piecesfwhich are assembled together. The sides 29' and-)roof 30 'ICO- IIO izo

are interlocked or notched into each other in These sides form tracks" moving Scrapers are supported. The munies 2ftrranged in the furnaces?.l leave a flue- Spn@ 33 between their sides and the side walls of the furnace. A flue-space 38A is also left above the upper inutile, and a uespace 33 is formed between the two mufles, and a fluespace 33') is formed below the lower muttle.

34.- and 35 designate the fire-box bridge-wall openings of the main and auxiliary hre-boxes, respectively, and 3G and 37 the casings over the bridge-walls. The products of combus` tion from the fire-boxes flow through these bridge-wall openings into the lower flue 33C and along under the lower inutile to a point opposite the auxiliary fire-box, where they pass through an opening 39 (shown in Fig. 5) opposite the bridge-wall of the auxiliary fire'- box into a vertical liue 40 and from it through a second opening 4l, also in the same side wall, into the middle flue 33B between 'the inutiles. They then iiow along between them back to the chimney, which they reach by passing through an opening 42, formed in the adjacent side walls. (See Fig. 8.) As the heat liows through these fines a portion of it, owing to the roughness of the bearing edges of the floor-sections of the inutiles and sides of the muiiles, withdraws under them and ilows up through the narrow vertical fiues 33 at the sides of the inutiles, and in order to insure that a small portion of the heat will pass under the edges of the mu't'lle and up and through these line-spaces we provide their edges with a series ot notches or flutes or holes 29, as shown inl Fig'. 52. The gases that :fiow up around the top Inutile vflow into the chimney through the small flue. Consequentl y both mullies are practically surrounded by hot gases, which is a feature of great value in a inutile-furnace, as it. insures an even temperature over the entire interior area of the Inutile, and consequently an even heat on all sides of the ore. The floor and sides and root of the inutiles are divided lengthwise into sections of convenient length for transportation and for handling duning construction and in orderthat any portion of the length of the inutiles may be removed after the furnace iscompleted without removing or tearing down the brickwork. Thus the floor is divided into sections 3l^, the roofs into sections SOX, and the sides into sections 29A. The sides and roof-sections are independent of the floor-sections. The floor-se@ tions overlap, preferably, by a rabbeted-edge joint which extends up to the top of their track portions. The sides and roof-sections also overlap at their abut-ting edges in a manner to form a continuous straight section of the niutlle which will iit together with the others the same as a single piece. The floorsections of the m u tiles' are preferably provided at their ends with depending transverse ribs which bolt together. They are thus clamped into a continuous lloor member. The inutiles may be made with integral lioor, sides, and roof, as ,shown in Figs, 'lll and 23, and be made in lengths convenient to handle and be bolted together. An asbestos gasket tt-TA may be inserted between the lengths, if desired. The

opposite ends of each Inutile rest on the end-y wall plates, and as the mu'tlles expand. and contract they slide back and forth on the end and side wall plates, and as the ends of the furnace are open around the ends of the muffles they can expand and contract independent of the brickwork.

` In the side Walls of the furnace below the lower muflie a door 48 is placed large enough to permit the section of the inutiles to be passed through it and to admit men to the lower iue. Then should any section of either inutile need to be replaced by new parts the Sections can be moved through this door. 1n the floor of the lower inutile, adjacent to the discharge end, we insert one or several sec tions of an air-inlet door 32, which is shown in Figs. l, 25, and 26. Thesesections of loor,

of which two are shown, are arranged to admit a great many jets of air under pressure to the under side of the ore and to force air up through the ore as it is moved over the sec` tions of door by the ore-Scrapers.V These air-'inlet floor sections comprise a double floor with an air-space inclosed between them. The surface of the ore-floor is composed between its end edges of a-.successive series of ratchetl tooth-shaped steps 32. The Vertical face ot' each tooth or step is perfeetlybeveled under its top edge. The side walls are preferably formed in this manner in orderv that the ore as it drops over the edge of one step onto another step will strike on the adjacent tooth a sho-rt space away from the 'face wall of the step on'which it falls. These inclined steps extend transversely across these tloorsections from track to track and can be carried up the sides of the track, if desired. Through the side walls ot' each step into the air-space a row ot holes 32 is drilled close together, through which hot air flows under and through the ore. At one or more places in the floor an airpipe 49 is connected with the air-chauiber. This pipe is carried outside of the walls of the furnace, and a valve 50 is inserted in itto control the How of air to and through the door. The pipes are then carried back into the lower flue and connected with a main supply pipe 5l, which extends through one end ot the furnace, where it is provided with a valve 52, and is connected to a blower 53 or other source of air-supply. In addition to these air-floor sections air is furnished to the upper side ot' the ore through pipes 5t, which are extended from opposite sides of the main air-pipe to the sidewalls and are carried through them to the outside, where a valve 55 is inserted in them. They are then carried back into the wall and into the sides of the mu l'llc. The inutiles are provided adjacent to the ends with swinging partitions or doors 56, which are arranged transversely across them and are hinged to the rools of the Inutile. The upper mul'l'le has apair oi those doors, spaced a short distance apart, ad-

IOO

IID

f ,tot loosely over botlrtrunnion portions.

.As shown plainly in Figs. 1 9 and 28, the ends jacent to. thefextranceat each end. While these door-partitions can be hinged t'o'swin g in any convenient manner, we preferably suspend them, as shown in either Figs.19 and'23 or in Figs. 2O and 2-8. Figs. 20 and 28 represent the preferred construction. In these views the doors are suspended by` a link 57, placed at each end. These links hang on a trunnien 58, formed on the opposite ends of a rib 69, which depends from one of the roof-seca tions ofthe muiie.

v provided at their top edge and at their oppon-A site ends with a'trunnion-member G0, whichfits close up against the trunnion members of the roof-sectiomand. -tlie links areadapted of the doors are formed witha recess,.which enablesthem to swing down by the sides of thecrir'rir"eyelchains.A yIn Figs. 19 and23 the door is pivoted by bolts A, which are held loosely'in bosses 60B and are arranged to slide vent air from entering the muflie in harmful quantities. Alittle air will fiew by them into the muiles, but'not enough todo any harm.

It is more necessary to keep the air from entering the rear end 25 of the muffies than from entering the front or feed end 25A, and 'as an extra precaution against the admission of too much air We place a hood 6 3 over the ends of the munies and conveyer, completely inclosing them, and arranging any suitable airtight stuing-box around the conveyer-shaf t. It would-not-be necessaryto use this hood if the doors are well fitted, except occasionally on seme' particula'ore. It may be constructed of. thinv sheetiron. It is secured to the Aend 25 of the furnace bybolts 109 and bythe lower bolts that hold the lower end -of the hanger. The upper muie constitutes an ore heating as d mixing compartment 64:, which extends its whole length; but the lower munie is divided into preferably three independent compartments 65, 66j, and 67. 0f these 65 is theme-assembling compartment. It is formed bypla'cing an additional pair of doors 68 at a short space from theend doors and on the opposite side of the ore'drop-chute 69, which depends from the floor ofthe up per mnflle through the groof4 of the lower /mnftle This pair of doors makes aseparate compartment from the others, into which the ore drops from thenpper muftle. This'second pair of doors'forms the inner walls also of a compartment, which is the chemical converting-compartment 66 of the furnace,the

opposite wall of which is formed by the doors 70. Consequently this chemical convertingcompartment is distinct and separate from The swinging doors are the ore-mixing compartment. The doors 70 valso form the inner wall'of a third compartment 67, which .is the oxidizing-compartment of the furnace. This compartmentis also separate andl independent from the other two compartments, and the o re undergoes aneu- Atirely dierent treatment in this compartment than in the chemical converting-commuie. rPhe roof ofboth muies is provided p'artment or when passing'throug'h the upper at intervals of its ,length with holes 7l.through 'i' its roof to permit' any moisture and fugitive gases which may arise'from the ore y-toj pass from the mufe into thesmall flue 33Aabove.

These openings are controlled by valves 71A, which are arranged to slide ontbp of the roof of the muffle. The valves Vcomprise 'a'plate 72 wide'enough to' :fltthe'top of the munie and arranged to `cover the-holes through the roof. On the back of the valvesanupward projecting contains a'verticallydieposed elongated slot 74,'(see Fig.

a crank 75.- These cranks are formed on a transverse rod 76,' which extends through f The pipes arebuilt into .the walls as journals for the pipes 7 7.4 of the furnaceand act rod to turn in. The valve-.rds extend beyond the furnace,

crank or wheel 7 8 is placed to turn the rod enough to permit the valve-operating cranks to move the valvesto one side of 'the holes through the roof or to move vthem partially orv wholly` over them, so aszto partially or wholly close them.' These openings through the roof of the upper munie also .permit gases which flowV laterally by expansion v from the A chemical converting-compartment or which maybe drawn by the suction of thedraft owing up through the ore drop-chute to escape into the small flue. Air flowing into the lower mule past the end doorswill also be carried up the oredropchute by the upward draft caused by the openings through the roof of the upper muiiie into the small flue. Some of the openings in'thc ro'of of the upper muflie should preferably always be left'open or partially so', as it is better in order to obtain the best results in this furnace andmethod that all volatile products evolved from the metals and metalloids in the ore be 6,) through eacho'f which passes and on one or both' eh'ds a' lug is formed -at `each end, which held orimprisoned in this compartment until the sulfur elements have been chemically changedxto ya conditipn in which they will, not burn' when oxygen iS admitted or when,l

they pass into a com pargment where oxygen is'admit-ted and is united with them. It is an advantage, however, when treating some ores to haveonel or more tightly-valvedopenings leading out of the chemical convertingvcompartment into the fines Vto let'outvoccalsionally the fugitive gasescvolved.

The` main duty of this furnace is to convert refractory ores te free-milling ores, and in order to do 'this the sulfur 'lements of the orcs must be changed lfrom'their hard crystallized lsnliid condition to n. soft flocculcnt yfriable ydampers of the furnace.

essere soin-fiile sulfate condition. To do this, two kinds of treatment are necessary-first, a chemical treatment, which in its nature must be a converting treatment, and, second, an

` oxidizing treatment, which in its nature is a a furnace must possess in 'order to be capableV of automatically converting al rebellious ore toairee-millingoreare entirelydiiierentfrom those possessed by any furnace yet invented. These elements require, first, that the ore be automatically and continuously fed through a furnace in tir time required by each particular o re under -treatment to convert it; second, that the furnace contain separate, independent, and at the same time contiguous compartments, through which the ore can move continuously and progressively from one end to the other and in which the ore can be lirst carried from either a cold or warmer even a hot condition to the temperature best suited to convert it and also' to drive out any moisture present and to substantially ad- Vance the ore toward the critical temperature of conversion before or as it passes into the 'chemical-com partment proper of the furnace.

This temperature is from about 500" to about 620 and is'recnlaied by frequently examining the ore and manipulating the doors and Consequently-the first compartment is preferably represented in the furnace at issue by the upper mnie 1 and is an initial-heating compartment 64:. Thechemical converting -compartment 66 proper is preferably arranged in the lower mnffle 2, placedI below the upper inutile 1, as is also the oxidizing-compartment 67, which ofA course is preferably arranged so that the ore will enter and pass through itafter it has passed through the chemical-compartment; but while we preferably arrange the compartments of the furnace in this order yet there fire other arrangements-which would give the same conditions with entirely different ary rangements and construction. Thus in Figs. l0 and 1l the three compartments are arranged one above the other and each eX- tends clear across the length of thefur'nace..

vin this arrangement the conveyer would travel, as indicated bythe dotted lines, and the ore-discharge chute is placed on the opposite end of the furnace from the feed-hopper. The convcyer travels over the top ci the furnace, and the side walls are extended up above the roof to form a trough,into which `the ore may be deposited ,and mixed and measurably heated and any remaining mois- .ure removed While it is being fed to the hopr by the upper line of the conveyed'.v This agement requires a vertical iluefiOateach 'end of ihc muii'ie, similar to that shown in Fig. 5.

In Fig. l2 another arrangement or modification is illustrated, in 'which two mulilcs i and 2 are shown independent of each other, and an inclosed mining and heating space 7i) is formed on top of the furnace, into which the properly-prepared ore is fed by any suit-- able conveyor and fed by the conveyer 80, which in this illustration is represented by a screw conveyor. The screw conveytr will automatically mix the fluxes and ore together thoroughly as it is fed to the ore-chute 79% chemical converting-compartment '56 and is moved by theore-conveyer toits opposite endy where it drops to the door of the oxidizingcompartmcnt G7 through the ore drop-chute 69, through which it is moved and from which it discharges. The couveyer 8l of the converting and of the oxidizing compartment is yarranged substantially like that shown in Figs. 1 and v2; but theconveyer 80 of the heating and mixing space is independent of it and may be driven from it as shown or from any suitable source of power, butshould be timed to feed the ore in unison with the movement of the ore through the other compartments. In Fig. iLiwe illustrate an additional moditication .of the preferred construction shown in Figs. l and :2. In this arrangement the Scrapers 82 are carried on wheels dil, which run on tracks Si, placed in closed chambers 85 outside of the mui'les. The-axles SG el' the Scrapers on which the wheels run project through slots in the side walls oi" the mufiles. In the outside walls of the side chambers we arrange doors and doorways, through `whicl'i access may be had to the Wheels and track. The combustion-chamber isarranged directly under the lower m unile 2 instead ot in the base of the chimney. The vert-ical lines i0 are arranged substantially as in the other arrangements.

4In Fig. l5 a section side elevationol one end of the furnace shown in Fig. Iii is illustratedin this arrangement. '.lhe scraiiers and Wheels 83am connected together by side links 84A, that pivot ou the outside end` oi: the axle 86 of the Scrapers. The sprocket-wheel S9 is arranged to slide with its supporing-boii .l2-i on the bracket 110, a weight 92 being ai;- tached by chain to draw the conveyor Si out to take up the slack of expansion.

in Fig. 16 We illustrate a'modiiicaticn in which afnrnace containing but one muilie is shown. This muie is divided into three ment 64, in to which the ore is fed through the hopper, being the initial-heating con'ipartment 6i. 'lhe middle one, 66, is the chem-- ical converting-compari ment-,and the last one, (37, the oxidiziiig-compartment. `hus all the most essential compartments are grouped in one straight militie, which is divided into these compartments by the swinging doors 56 and 7i). The conveyer 80 is of the ordinary through which the ore drops tothe door ci thel compartments (it, 66, and G7, the compart- 

